Machine for forming articles from pulp fiber.



Wihneeae No. 891,331. PATBNTED JUNE 23, 1908. F. 'G- EMRIGK.

l MAGHINv PORFORMING `ARTIGLES PULP FIBER. l

APPLIUATION H Lnn JUNI: 1o. 1-90'1.

` 9 sanare-SHEET 1.

n? ue mentari.

'PATENTBD JUNE 23, 1908.

' F. GEMRIGK.

MAGHINE POR PORMING ARTICLES FROM PULP FIBER.

APPLICATION 111mm .1min-1o, 1901.

9 SHEETS-SHEET Z.

l m l Frank Camvk .l v

No. 391,331. PATENTED JUNE 23,1908.

F. c. BMRIGK.

MACHINE POR FORMING ARTICLES FROM PUL'P FIBER.

' ArPLIoA'HoN FILED JUNI'. 1o, 19,07.

9 SHEETS-SHEET 3.

e 3E' d dat l l: I

l cn ywhm l mvahho:

frank O. Emvck f K Ath'gs.

'PATBNTED JUNE 23, 1908.

P. o@ BMRIGK. MAGHINB PoR FORMING ARTIGLES FROM PULP FIBER.

9 SHEETS-SHEET 4.

APPLICATION FIVLED JUNE 10l 1907.

nvenhovz- Fvank C. Emviok' @zb/WMM afa 'VWmeaeqaar C nm@ wwf. WMM- PATENTL'D JUNI 23, A190s.

No. 891,331. F. 0. BMRIGK.

MACHINE POR FORMING ARTICLES FROM PULP FIBER.

APPLIUATION FILED JUNE 10, 1907.

9 SHEETS-'SHEET 5.

ma ik Uu v O. M .www pvr... MQ k n m .H

Wbnaaaa (www Wdh@ No."891-,331. PATBNTED JUNE 23, 1908.

" l A F. C. BMRIGK. v

MACHINE POR FORMING ARTICLES FRM PULP FIBER. v oA'TI OOOOOOOO UN BBBB 19.07.

9 SH SSSSSSSSSS e,

' 5ey l 5557 I inventor'. Frank O E mmck Y Abb'y',

No. 891,331. v V PATENTED JUNE 23, 1908.

' F. C. EMRICK. MACHINE EUR FORMING ARTICLES FROM PULP FIBER.

APPLICATION FII'ED JUNE 10, 1907.

' 9 SHEETS-SHEET 7.

www...

Inventor Fvank C. Emvok by 12b/wem VwM/Lq No. 891,331. PTENTED JUNE 2 3, 1908.

F. C. EMRIGK.

I MACHINE FOR FORMING ARTICLES FROM PULP FIBER.

APPLIOATION FILED JUNE 10, 1907.

9 SHEETS-SHEET s.

\ Inventor:

Ahb'y's F.ank o. Emyick Fig. I3.

Wmelssa i )HMH IA'IENTED .TUNE 23, 1908-. E. C. EMRIGK. MACHINE FOR FORMING ARTICLES FROM PULP FIBER.

APPLIOATIUN FILED JUNE 10, 1907.

9 SHEETS-SHEET 9.

.am-ll lul' Wlmaaaes a v., ....Uud .wm m.. 6 Vm .mE ,0. kl, T. .Fun b 1' new land useul Improve-ment in*Machines` UNITED strA'rns rrnivr onirica;

FRANK fc. EMRICK, or sr. LoUIs`,=MrssoURr. s,

machina FonronmNGJaatrIe/'Lns- Fapi; rum? FIBER.

spciaciaaqner- Lewisham.

ententes June 23, 190s.

Be it known that I; FRANK 0;' Eumex, a citizen ofthe United States,'-residihgfatSt. Louis, Missouri,l have invented a certain for Form-ing Articles from Pulp Fiber, of' which the followingis a full clear, land exact, description, suchas will enable otherssk-illed in the art .to which it'afp ertainsv to makemnd use the same, referenceA eingwhad to the/accompanying ldraw-ings, formingl part of fthis specification, in 'Which- Figure 1l s an end Ielevation-,lpartlyfin sec- .tion of a machine constructed in accordance with my invention; \Fig..;2 is a front' elevation of said` machine; Fig. 3 is a'detail-verti-- cal sectional view showing the. `construc tion 'of the plungencarrying ,piston that loperates fin. the pulp' Water ,receptaclefFig 4 is-a Adetai perspective viewof. Y

mechanism that actuates `the side valve in` e the steam .chest; Fig. 5 is 'an .enlarged evertical sectional view of oneof thelrnolds or dies; Fig. 6 is across sectional vieW'of'Fig. 5;

'Fig 7 is a toapQ-planl vview of thepick-up Amechanism; Fig. '8 is. a detail view ofthe i locling 'device forftheframe v'vhich carries 'locks the the pick-up devices;l Fig. 9 is anfenlarged view of one of the pick-up devices and shows the plate' which carries saiddevices and also .the stripper plate; Fig. 9?*"is a viewfsimilar to Fig, 9 and s hoWs al portion `oia completed article'mounted'on the .pick-up device; Fig. j l() isan elevation taken on about the `line v10--10 of'Fig. 7; Fig. lliis an endy view o f the turret, showing the-means for lockingthe turret; Fig; '12 -is a detail view 4of the. locking means showingit in operative position; Fig. 13 Yis a .top -plan view showing the latchthat 'langer-carrying piston in its lowered position; `Fig14 is atop plan -vievv partly in section ofthe mechanisms that impart movement tothe mainelementsfof the machine Fig. 15- .is a detail pers ective -vievvvofl the shifting Amechanism or the 4`clutches that'coperate with thescrew on `forming" articles from pulp iben I have herein' illustrated 1n which the controlling block travels; and Eig. 16 an enlarged perspective view of the controllingiblock.

This. inventionrelates. "to machines for invention as embodied in a vmachine Afor orniing. bottle wrappers 'or cases thatarefadapted to be placed4 on bottlesto prevent them from'.

. be used in various other that comprise elements 'knocking Aagainst each othelhduring transeportation. i f v One obgect of my invention is to provide a .machine yorformingapv roximately tubularshaped or hollow articles from liquid pulp fiber and which is so constructed that the larticles being' formed will be of ,uniform thickness.

An'other object isI to lprovide afmachine i -that -is -entirel ,One novel feature of my invention con' sistsin forming ahollow or tubular-shaped article-from li uid pulpiber by means 'f a perforated mo d, a plunger adapted to pro- "Jectthereinto to force the major portion of l'the liquid through vthe perforations in the mold and thus compact the iibers closely together upon the inner face of the mold and. air or steam pressure for completing `the yoperation of compacting the iibers together,

automatic inv its operation 1 "and, which w11 form a great number of\ "articles in a short space of time.

and also forcing the Water out of the'ii'ber and' ldrying the fiber.

Another novel feature of my machine consists -in the means that` is employed for removing the articles from the molds in Which they are formedfsaid means being seconstructed that the articles are not crushed or damaged When they are removed from the molds .and While they are still com aratively .moist or damp. And still anot 1er novel feature of my machine consists in the mechanism that is employed for controlling theo eration ofthe various elements of the ma- Q 111e- -While I have herein illustrated my invention asembodied in a machine for forming tubular-shaped bottle wra pers, itl Will, of

, -course, be `inderstood that t e machine could be used for forming various other articlesby .ul water; namel' .water with which grains of pulp are mixed, a movable member 4closely together and also dryin rovi'ded with 'a plurality of hollow perorated molds or dies which are brought into alinement with the pulp waterr receptacle to receive a charge of pulp water, plungers adapted to move intosaid molds to force some of the water through the perforations therein and thus arrange the pulp fibers upon the inner faces of the molds, and means for` introducing air 0 1' steam above the remaining portion of the Water in the rece tacle to complete the 'operation of'forcing t e water out of the mol s and compacting the fibers the fiber. IThe movablemember abov`e re erred to is provided with a' number of sets of molds and after articles-have been formed in one set of l"molds said movable member is moved to bring an empty set of molds into position gto receive their' charge of pull .Walter and ment with the means that removes the com- 'trate a machine embodyi also ycarry the"lled set of mo ds into alineform of my invention, 1 designates a receptacle that is adapted to hold a quantity of pulp Water, said receptacle being of approximately oblong shape and located at the back of the machine. Thisreceptacle is reci ro- A catingly mounted in guidreways 2 forme by stationary parts of the frame of cthe machine, and the upper and lower ends of the receptacle are o en, as shown in Fig. 1. A movable mem er, hereinshown as a rotatable turret 3, is' located underneath the receptacle 1, and said turret is provided with four sets of hollow erforated molds or .dies A, each set comprising a plurality of molds, as shown in Figs. 1 and 2. A gang of plungers 4 is reci rocatingly mounted inside of the receptac e 1, as shown in Fig. 1, and after one set of molds have received4 their charge of pulp Water the plungers 4 aire moved down-l lwardly into the'molds. to force the water Y ported by- AInol s.

through theA perforations therein andl arrange the ulp" fibers upon the inner 'faces of the Said plungers are carried by a piston 5 that fitssnugly inside of the receptacle 1 land movement is imparted to said olston by means offa iston 6 inside of a cylin er 7 'sup- 'ille' frame of the machine and 1ocated above the receptacle 1 the plungercarrying piston' being connectedV to the rod 8 of the 'piston 6, as shown in Figs. 1 and 3. The pistonin cylinder 7 is actuated by means yoffs'team Vbut if desired, compressed air could fbzused as the motivefp'ower for said piston.

y shown clearly in Figs. 1, 2 andj3, the

point Where vcylinder 7 is rovided with a steam chest 9 and with a s de valve 10 that controls the admission and exhaust of the motive fluid to n cylin er to orce the piston 6 downwardly.

and thus cause th'e plungers 4 to enter the molds and when the slide valve is in its other extreme osition, as shown in Fig. 2, steam will be adpmitted through the port 12 into the lower end ofthe cylinder to return the piston .6 and also the plungers 4 to their elevated position. The slide valve is so actuated that both of the ports 11 and 12 will be closed, as shown in Fig. 3, before the piston 6 has completed its downward stroke, thereby causing the steam above the iston to expand and thus impart the fina downward movement. to the piston.

' As previousl stated, the final operation of forcing out t e water and compacting the pulp fibers together u on the inner faces of the molds is eifecte by means of steam which is introduced above the water in the receptacle. To this end I have provided the piston rod 5% with a central bore 13 that terminates at its upper endin an admission port 14 `above the top side of the piston, 6,'as shown in Fig. 3, the lower end of said bore being op'en and communicating with an o ening 14a in the upper side of a tube 15 t at extends longitudinally through the plunger-carrying piston 5.- The-tube 15 is reciprocatingly mounted in a bore in the piston 5 and'is provided on its lower side with exhaust ports 16 that aline with exhaust ports 17 inthe bore in which the tube is mounted when the tube is in a certain position, said exhaust ports 17 branching laterally from the bore in the piston 5 so as to introduce the steam above the Water and between the three rows of vplungers 4, as shown in Fig. 1. To prevent the steam from escaping from the tube 15 before the plunger-carryln piston' 5 has reached nearly the limit of its ownward movement, I have provided means for lockingthe tube 15 so as to hold the exhaust ports 16 therein out of alinement with the exhaust ports 17 in the bore in which the tube is mounted. This locking means consists of a block 18 connected to the tube 15 and arranged in aguideway formed in the piston carrying lunger and a pin or rod 19 that engages a s oulder 20`on said block, the locking means being shown in operative position in dotted lines in Fig. 2 and in inoperative osition in full `lines in Fig. 3. The pin or ro 19 is mounted tube in such a position that the steam canproject into a guideway 32 on the front side not escape through the ports4 16 therein.

of the receptacle 1. A valve 33 provided 'I his pin 19 is of less length than the distance with a 'number of ports or openings is rewhich the plunger-carrying piston moves downwardly so that just before said piston has reached the limit of its downward movement, the shoulder 20 on the block 18 will pass out of engagement with the lower end of the pin and thus ermit the tube 15 to move to the left, loo ng at Fig. 3, so that its exhaust ports 16 will aline with the exhaust ports 17, thereby admitting steam above the pulp water whichpremains in the yreceptacle to complete the o eration of forcing the water out of the mol s and compacting the fibers upon the inner faces thereof and also drying the fiber. The tube 15 is moved to the lett by the pressure of the steam inside of same,-the left-hand end of the tube being closed and the right-hand end being open. When the plunger-carrying piston 5 moves upwardly, back to normal position, an inclined face 2l on the block 13 will come into contact with a stationary device 22 secured to the frame of the machine and thus move thetube to the right to carry. the ports 16 therein out of alinement with the orts 17, the pin 19 d10p ing behind the s oulder 2() on the block to ock the.

tube.

In order that the'plunger-carrying piston 5 will notl move upwardly when the steam is admitted above the pulpv water to complete the o eration of compacting the ibers together, have provided means for positively locking said piston, said means consisting of a pivotally mounted latch 23 that lies in a horizontal lane and which is adapted to swing over tile upper end of a rod 24 connected to the piston 6 and projecting upwardly through a stuffing box in the top of the cylinder 7. This latch 23 is adj ustably connected to a support 25 on the top of the cylinder and is provided at its outer end with a notch 26 which embraces a second support 25a on the top of the cylinder, see Fig. 13, both of said supports being provided with pairs of adjusting nuts 27 between which the latch lies. By varying the positions of .these nuts 27 the piston 5 can be locked in diierent positions. The latchis moved into o erative position over the end of the rod 24 y means of a coiled spring 2S as soon as the end of the rod 24 passes below the latch and is moved into inoperative position to release the plunger-carrying piston by mechanism hereinafter described.

The pulp water is supplied to the receptaclev 1 by means of a conduit 29 containin comparatively thick pulp water and a conduit 30 containing clear water, the conduit 29 being provided with a spiral conveyer 31 that feeds the thick pulp water through Said conduit and both of said conduits being provided With a number of branches 29a and 30 that ciprocatingly mounted in this guideway and said valve is actuated intermittently by mechanism hereinafter described to permit a predetermined quantity of pulp water to iow into the receptacle 1 through openings in the front wall thereof, as shown in Fig. 1. The conduits 29 and 30 are provided with valves so that the operator can regulate the proportions of Water and pulp fiber. If the pulp water in t-he conduit 29 is too thick he can mix fresh water with it from the conduit `30 and thus obtain pulp water of the desired consistency.

As the molds or dies in which the articles are formed are of novel construction I have illustrated one of them in detail in Fig. 5. Referring to said figure, it will be seen that the mold proper is composed of a piece of perforated material 34 the lower en d of the mold beinor contracted slightly so as to produce an artic e which in a way conforms to the sha e of a bottle, the contracted portion of tiie article incasing the neck of the bottle. The perforated material 34 is surrounded by a strand of wire 35 wound in the form ofva spiral, and. interposed between this wire and a metallic tube 36 are vertically disposed rods or wires- 37. -The wire 35 and rods 37 form a substantial backing for the perforated material and also hold said material spaced away from the tube 36 so as to provide a passageway for the water which is forced through the perforations in said material.

vThe perforated material and also the tube' 36 are supported by a plat-e 38 on the turret 3 and said plate is provided with a plurality of openings 39 which permit the water to drain down into a basin 40 in the turret, the turret being provided with a basin for each set of .molds and said basins having their lower end contracted, as shown in Fig. 1.

The turret is rotatably mounted on a stationary hollow shaft 41, as shown in Fig. 1, and this shaft is provided at its upper side with openings 42 which aline with the lower end of the basin 40 'of the set of molds that is in alinement with the plungers- 4, thereby providing an outlet for the water in the basin, said shaft 41 preferably communicating with a conduit that leads to a sewer.

Having described the members which form the articles, l will now describe the mechanism that removes the articles from the molds and conveys them to theplace where vthe artieles are collected together. ism comprises a rotatable frame B provided with two sets of pick-up devices 43 that conform to the shape of the interiorof the {inished articles, and means for moving said devices into the inished articles while they are- This mechan-` `cons1sts of two side pieces 44 and end pieces 45 rigidly connected together, the side pieces being journaled on hollow bearings 46 carried b the frame of the machine,' as shown .in Fig. 10. As both sets of pick-u devices 43 are the same I will only descrr e the construction of one set., The .devices 43 are permanently secured to a plate 47 which lies against one of the end ieces 45 of the frame l and said plate is provi ed with a lurality of yokes 48 which project inward y through openings 49 in the end piece 45. These yokes are adapted to be engaged by T-sha ed heads on rack bars 50 which are actuate( to move the plate 47 outwardly and thus force the pick-up devices 43 into the completed articles in the set of filled molds. Thereafter the rack bars 5t) are moved in the opposite direction to Withdraw the pick-up devices from lthe molds but prior to the return movement of .the plate 47 the completed articles are ejected from the molds onto the pick-up devices 43 by means of a blast of compressed air. The compressed air is introduced into the molds by a pipe 51 located inside of the hollow shaft 41 on which the turret revolves and provided with branches 52 that extend through openings in one 'side of said shaft,

' the pipe 51 leading to a tank, not shown, containing air under n'essur'e, said pipe being rovided with a valve 53, as shown 1n Fig. 1 hen the set of filled molds, shown in dotted lines in Fig. 1, have been moved into alinement with the pick-up devices, the contracted end of thebasin 4() of said set of molds will aline with the branches of the compressed air pipe 51 so that when the valve 53 is opened the compressed air will rush into the molds and force the completed articles onto the pick-up devices 43 and as said devices conorm to the shape of the finished articles said articles will not be crushed Aor damaged. The stem of the valve 53 is provided with a bifurcated extension 54 and the plate 47 which carries the pick-up devices is provided with an arm 55 that engages the bifurcated end of said extension and opens the valve as said plate moves forwardly, the return movement of said plate restoring the valve to noriralposition and thus cutting off the supply o air.

A movable stripper plate 56 is mounted upon the plate 47 which carries the pick-up devices, said stripper plate being provided with openings, through. which the )ick-up devices extend, as shown in Fig. t). li`or preventingv accidental dislodgment oi' the completed articles after they have been forced vice by means of coiled eX ansion springs 58- mounted in y sockets in t e stripper plate. The stripper plate normally lies a short distance away from the plate 47 to which the pick-up devices are connected but when said devices are moved forwardly to enter the articles in the molds, said stripper plate will come into contact with the turret 3 and will .thus be forced against the plate 47, as shown in Fig. 9a. The plate 47 is provided with inclined shoulders 59 and the clamps are provided with yielding extensions 57a so that when the plate 47 and stripper plate come together the yielding extensions on the ,clamps will ride up the inclined shoulders 59 and thus force thel outer ends of the clamps toward the pick-up device to securely clamp the com )leted article thereon, the extensions on the ciamps springing over the edges of the shoulders 59 and thus locking the stripper plate -to the plate 47.. As shown in Figs. 5 and 9a, the molds are provided at their u per ends with recesses 6() t-o receive the ends of the clamps 57.

After the pick-up devices have been withdrawn from the molds the frame B is rotated one-half of a revolution to move the other set of pick-up devices into operative position to receive the next set of articles that are formed. When the frame comes to rest the stripperv plate of the set of pick-up devices that carry completed articles, is moved outwardly to strip the articles from the pick-up devices, this being accomplished by means ot' 65 on a stationary support G6 which is connected at its opposite ends to the bearings tti upon which the frame B is journaled, as shown clearly in Figs. 7 and 10. Pinions (57 are rotatabl)v mounted on the support 66 and each pinion meshes. with one of the rack bars 5t) and (Sl so that rotary movement of the pinion will more said rack bars in opposite directions. thereby causing the pick-up d'evice plate and the stripper plate to operate simultancoustv. Rotary movement is imarted to the'pinions 67 by means of 'a rack ar 68 that meshes with small pinions 69 secured to the pinions 67. The clam s 57 release the articles and also unlock t e plates when the stripper plate is actuated to strip the articles from the ick-up devices, due to the fact that the pic -up device plate 47 is prevented from moving1r with .the stripper plate, this being eiiecte by a bar 70 secured to the support 66 andprovided with a T- shaped head that interlocks with a yoke 71 on the pick-up device plate. While I have herein shown the rack bars and 61 and the bar as being provided with T-shaped heads that coperate with 'yokes on the plates 47 and 56, it will, of course, be understood that these coperating" parts could be formed in various ways without departing from the spirit of my invention, it being necessary, however, to construct them so that they will interlock when the frame B moves y from one position into its other position. The frame B is locked in position by means of a sprin f-actuated plunger 72 mounted in a housing 7 3 on the frame of the machine and provided with a pointed end that engages recesses 74 in the side piece 44 of the frame, the edge portions of the side pieces being provided with inclined grooves 75 into which the locking plunger extends as the framc'is revolved so as to gradually move said plunger into its housing against the stress of its actuating spring. A locking device of this character holds the frame in either of its two positions but will release the frame when power is a plied thereto to turn it.

he turret 3 which carries the molds or dies has four positions of rest and is locked in these different positions by means of a dog 76 pivotally connected to a stationary part of the frame of the machine and cooperatingI with lugs 77 on one ofthe end, pieces of the turret, as shown in Fig.' 11, the turret being provided with four pairs of such lugs. The dog 76 is forced downwardly between the lugs by means of a coiled expansion spring 7 8 and is moved upwardly to release the ti 1r ret by means of a pivotally mounted finger 79 connected to a link 80 which is fastened to the receptacle 1 that receives the pulp water. This link 80 and a companion link 80a', as

-well as a second pair of links connected to the lo posite end of the receptacle are secured at t eir Llower ends to collars 81 that surround eccentrics 82 on a shaft 83 so that when said shaft is revolved the receptacle 1 will be moved downwardly into snug engagement with theturret 3, the lower edge of the receptacle being provided with packing 1a so as to produce a watertight joint between the re.,- ceptacle and the llattened portion of the turretlilvith which it contacta After'the articles have beeniformed and the plungers 4 have moved upwardly, the receptacle 1 is raised our ,ofcontact with the turret ...by

means loi the eccentrics 82 and as the link 80 moves upwardly thei'nger 79 thereonwill engage a projection 7 6'1 on the locking dog and move it out of contact with the lugs 77' on the turret so as to release said turret and permit it to `be turned as previously7 de scribed.. As the4 turret rotates a pin 84 thereon will engage the lower end of the finger 79 and thus release the dog 76 so that it can move downwardly into engagement with .the next pair of lugs on the turret to lock it in position. The linger 79 is returned to normal position by means of aleaf'spring 85 and when the receptacle 1 is again moved downwardly into engagement with Vthe turret the upper end of the finger will ride over the extension 76a on the locking dog -and then spring underneath saine, as shown in Fig. 12, soy as to bein position to lift the dog when thc receptacle 1 is raised.

Having described the essential elements of the machine which coperate to produce .a finished article and eject it from the machine,

I will now describe the mechanism which actuates these elements.

The power is derived from a main shaft S6 provided with a pulley 87 dri-ven by a belt, not shown. A screw 88 is loosely mounted on the main shaft and upon .said screw is a controlling block C rovided with screw threads 89 that mesi with those on said screw, this mechanism being shown in detail in Figs. 14 and 16. This controlling block travels longitudinally in opposite directions 'on the screw 88 and is the means which controls the time of pperation of the mechanism that actuates 4some of the main elements of the machine and also imparts movement to fthe mechanism -which actuates the other main elements of. the machine, vsaid block being guided and prevented from turning by a stationary rod 90 that projects through an o ening 91 therein. 'The opposite ends of t e screw 88 are provided wit clutch teeth, and coperatin with the clutch teeth at the left-hand end o? said screw, looking at Figs. .2

and 14, is a clutch 92 splined to the ,main` shaft 86 and adapted to move longitudinally thereof to move into and out of engagement with the teeth on vthe end of the screw 88. The clutch teeth atv the righthand end of the screwcoperate with'a clutch93 splined to the sleeve of a gear 94 which rotates ina direction opposite to that in which themain shaft rotates, said clutch also being adapted to move longitudinally of the sleeve into and Vout of engagement with` the teeth on the sciew. The gear 94 is, of course, loosely mounted on the main-shaft and is. driven by pinions 95 that iiiesh with a gear 96 pinned to the main shaft thus constituting a differ ential gearing. VV hen the clutch 92 that is connected to the main shaft is in engz'igement with the screw said screw will rotate in the same direction as the shaft and thus cause the controlling block C to move in the direction of the arrow a in Fig. 2, and when the 112 by means of a lever 116 to which a shifting bar 117 is fastened. As the pulp recepclutch 93 is in engagement with the screw l tacle has tobe lowered and raised once for said screw will rotate oppositely to the main shaft and thus cause the controlling block to travel in the direction indicated by the arrow b in Fig. 2. The clutches 92 and 93 are connected together" by a bar 97 having forks which enga e grooves in the clutches, said bar bein sjfte'd in opposite directions by means o a weighted lever 98 engaging pins 97 0n the bar. Movement is imparted to this lever by a 'shifting bar 99 connected to the weighted lever by pins 99a, as shown in Fig. 15, and provided at its ends with extensions 100 and 101 that are adapted to be enga ed by thel controlling block C` rom the fore oi it. will be seen that whenever the main s aft of the machine is rotating the controlling block C will travel back and forth longitudinally of the shaft, the direction of movement of said block being reversed automatically when said block engages one of the extensions on the shifting ar 99 and thus causes the clutch bar 97 to be moved.

The turret 3 is driven by means of ra gear 102 loosely mounted on the main shaft and meshing with an idle gear 103 that 'is in mesh .the main shaft.

with a gear 104 secured to one end of the turret, said gear 102 being provided with clutch teeth 105 that coperate with a clutch block 106 splined to the main shaft'. The clutch block 106 is moved into engagement with the gear 102 so as to cause it to rotate by means of a shifting bar 107 and a spring-actuated lever 108 connected to the outer end of the shifting bar, said lever being moved to throw.

. thus disengage the clutch block from the' gear 102 and permit said gear and the turret to come to rest, the turret having made a quarter of arevolution. The frame B which carries the "icky-up devices `makes a half revolution whie the turret is making a quarter revolution and said frame is turned by means of the idle gear 103 which meshes with a gear 111 secured to one of the side pieces of the frame B.

The eccentrics 82 which move the pulpholding receptacle 1 down into contact with the turret are secured to a shaft 83, as prelviously stated, and fastened to the right- `hand end of said shaft is a ear 112 which meshes with a gear 113 loose y mounted on This loosegear is provided with clutch teeth 114 that cooperate with a clutch block 115 splined to the main shaft and adapted to be moved into and out of engagement with the teeth on the loose.- gear each quarter revolution of the turret it is necessary to move the clutch block 115 into and out of engagement with the gear 112 twice during each cycle of operations of the machine. This is effected by means of two plungers 118 and 119 which are connected at their lower ends to bell crank levers 118a and 119a fastened to the shifting bar 117 .A The upper ends of these plungers are provided with rolls that enter an irregular groove 120 in the side of the controlling block C.

As shown in detail in Fi 16, the controlling block is provided w1th two movable ates 121 and 122 whose underneath faces orm part of the irregular groove, 120,' these,

on the plunger 118 can enter the rightl hand end of the irregular groove 120.- This groove is so shaped that it will move the plun er 118 downwardly and thus throw the clutc block -115 into engagement with the ear 112 to cause the shaft 83 to make onealf a revolution, thereby moving the` pulp receptacle 1 into engagement with the turret. The groove 120 in Vthe controlling block then returns the'pluuger 118 to normal position so as to disengage the clutch block from the gear 112 which comes to rest. As the roll on the plunger 118 comes into engagement with the gate 121 it will raise said gate and thus depress ythe gate 122, thereby closing the right-hand end of the groove 120 and leaving the left-hand end of the groove open, as shown in Fig. 2.

Each of the gates is provided with an inclined face 12.4 and as the controlling block continues its movement in the direction of the arrows a, the inclined face of ate 122 will come into contact with the rol on the plunger 1.19. The plunger will not be depressed, however, due to the fact that it is formed in two sections that are connected together by a rule joint, so that the upper section will yield and ride up over the gate 122 without imparting movement to the clutch block 115, the upper section of the plunger bein returned to normal position by means of a at spring secured to the lower section of the plunger and bearing upon .the upper hinged section. During the last half o the-cyc e of operations when the controllin block moves in the op osite direction incicated by the arrow b in ig. 2, the roller on the plunger 119 will enter the left-hand end of the groove 120 in the controlling block so that said plunger will be depressed and thus move the clutch block 115 into vensensa:

gagement -Withthe gear. 112 tocom-plete the revolution of theshaft 83 and thus'raisethe pulp water receptacle 1.. As the roll on the.

the receptacle 1 consists of a bell crank lever 125 connected to one end of the valve bar 126, as shown in Fig. 2, and joined by means of a link 127 to a lever 128 pivotally connected to the frame of the machine, said lever being lprovided at its inner end with a roll that projects into an irregular groove 129 formed in the side of the controlling block C. 'lllis lever 128 is-also formed in*V two sections, the vouter section which carries the roll being hinged in the same manneras the plungers 11%` and 119, previously described. The

groove 129 does not extend all the way across the face of the controlling block but terminates adjacent the center of the block, as shownrin Fig. v16, and fastened to the side of the block is a plate 130 provided with an inclined lower edge. A notch or groove 131 provided with an inclined bottom is formed in thesideof the blocky at the lower edge of the plate 130 and this groove is on a line with the right-hand end of the groove 129. As the controlling block moves in the' direction of the arrow a in Fig. 2 the roll on the lever 128 will enter the right-hand end of the groove 129 and thus raise said lever so as to pull lthe link 127 downwardly to cause ,the valve 33 to be opened to 'permit the pulp water to enter the receptac e 1. When the lower edge of the plate 130 on the` controlling block comes into engagement with the roll on the lever 128 said lever will be rocked lin the opposite direction to return the valve 33 "to normal position to cut oir the supply of pulp water. When the controlling block moves in the opposite direction, as indicated by the arrow b, the roll on the lever A128I will enter the groove or notch 131. in the block and the hinged section of the lever will yield so that the roll can ride over the face yof the blockwithout entering the groove 129, thus preventing movement being imparted to the valve 33.

As the valve 33 moves back to normal closed'positionf, a hinged bar 132 connected to the right-hand end of thevalve-enga'ges a bell crank lever 133 and actuates it.` The long arm of this bell crank lever is connected to a rod 134 which is secured to the slide valve 10 in the steam chest of cylinder 7 so that the slide valve will be moved down-A to move downwardly. The hinged bar 132 is moved out of engagement with the bell crank lever 133 by means of a rigid projection 135 upon which an inclined portion 136 of the hinged section of the bar rides, as shown in Fig. 2. When the piston 6 has completed about three quartersof itsdownward movement a hinged dog 137, connected to a support 13S on the plunger-carrying piston 5, comes into engagement with a lever 139 pivotally connected to ,a stationarypart of the frame of the machine and having its inner end arranged underneath a pin 14() on the rod or stem 134 of the slide valve 10, shown in detail in Fig. 4, further downnwird movement of the piston causing the dog to rock the lever 139 and thus move the slide valve into the position shown in Fig. 3 to out ofi' both of the ports and permit theexpansion of the steam in the cylinder 7 to complete the downward stroke-of the piston 6, as previously described. The slide valve 10 is moved intoposition to permit the steam to enter the port 12 and thus raise the piston 6 by meansfof a trip or projection .141 on the j ulp Water receptacle which engages the owerend of the stem 134 of the slide valve when'sa'id recept-acle is raised outof contact with the turret. move upwardly, however, the latch 23 which extends over the upwardly projecting rod 24 on said piston must be moved into-inoperative position. This is effected by means of a bell crank lever 142 which engages a pin 1'43 on the pivoted end of said latch, said bell crank lever being actuated by means of alever 1.44 to the outer endof which a rod 145 is con ne'cted. Said rod is normally forced downwardly by means of a coiled spring 146 surrounding said' rod and interposed betweena stationary ,bracket 147 and a collar 148 fixed to the rod, as shown-in 2, the rod being raised upwardly to actuate the bell .crank lever 142 by means of a pin 149 on the gear 112 which comes into contact with the lower end of the rod as the gear revolves.,

The rack .bar 68 which primarily imparts movement to the rack bars"50 -and 61 of the pick-up device mechanism, is fastened at its outer .end to a lever 150 pivotally connected to astationary part of the frame of the ma'- chine. 150 and the opposite end of said link is provided With a pin that enters a' slot 152 in one arm 153 of a bell crank le'ver which is fulcrumed on a stationary support, said bell crank .lever lying in a horizontal plane and A link 151 is connected to the lever being'shown clearly in Figs7 and 10. The

other arm of said bell crank has a hinged sec'- tion 154 provided with a roll that enters a groove 155 formed in the top face of the controlling .block C. A plate 1 56 provided with an inclined edge is secured io ihe'top of the controlling block and at the outer end of said Aplatezis an inclined groove 157 in the top ol' the controlling block. When the controlling block moves in the direction of the arrow a in Fig. 14 the roll on the hinged section 154 of the bell crank lever will enter the righthand end of the groove 155 and thus impari'J movement in one direction to the lever 15010 which the rack bar 68 is connected and when said roll comes into contact with the inclined edge of the plate V156 the rack bar 68will be moved in the opposite direction. When-the controlling block moves in the o posie difrom the machine in a short space of time.

While I have herein shown the preferred form of my invention as embodied in a machine for forming tubular-sliep(` fl bottle wrappers, it will, of course, be understood that the machine could be used for forming various other articles such, for example, as paper'cans, bo".- tles and receptacles vof different shape and form by substituting dies and pick-up devices of different shape from those herein shown. Furthermore, I do' not wish it to be understood that the means for removing the articles from the dies lis limited to pick-up devices which roject into the articles as said devices could be so formed that they `would embrace the articles. The machine is designed to form articles from liquid ulp fiber but by slightly modifying parts of the machine it could 'be used for forming articles from other substances heldin suspension in a liquid.

Having thus described my invention, what I claim as new and desire to secure by Letters. Patent is:

1. In a machine of the character described, a perforated die of approximatelyl tubular form adapted to receive a charge of liquid pulp fiber, means for forcing the liquid through the openin s insaid die and compacting the fiber closeIy together on the walls thereof, a movable ick-up device conformindg to the shape of t e complete article-and a apted to be rojected -into same, and means for blowing the completed article from the die onto said pick-up device; substantially as described.

2. In a machine of the character described, a perforated die of approximately tubular form adapted to receive a charge of liquid pulp fiber, means for. forcin the liquid through theopenings in said ie and coinpactin the fiber closely together on the walls therec a movable pick-up device conforming to the shape of the complete article and adapted to be projected into same, means for blowing the completed articlefrom the die onto said pick-up device, and a stripping device adapted to be moved longitudinally over the ick-up device to eject the comscribed.

a hollow perforated die, means for admitting a predetermined quantity of liquid ulp fiber into said die, means for forcing t e liquid through the openings in said die and vconipactin the berclosely together on the walls thereo to form an approximately tubularsha ed article, a pick-up device conforming to t e shape of the completed article, means for moving said device into said article and thereafter away from the die, a stripper, and means for actuatin said stripper to eject the completed article rom the pick-up device; l substantially as described.

v 4. In a machine of the character described, a hollow die of ap roximately tubular form l having' openin s ormed in the side Walls thereof, means' or admitting a predetermined quantity of pulp water into said die, a plun er, means for moving said plunger into said tdie to displacethe major portion of the water through the openin s in the die, and means for thereaftery intro ucing air or steam abovethe surface of the pulp Water to coinplete the operation of compacting the fibers together upon the inner face of the die substantially as described.

5. In a machine of the character described, ahollow die or mold adapted to receive a charge of pulp water, means for introducing pulp water into said die, means for forcing the water out of the pulp and compacting the fibers closely together upon the inner face of the die to form an article, a pick-up device means for moving said 1lpick-up device into the article while it is st' in said die, means for blowing the article out of the die and onto said pick-up device, and means for thereafter separating the die and said pick-up device; substantially as described.

6. In a machine of the character described, l a hollow die or mold consisting of a shell of l perforated material, a tubular member surrounding said shell, and means'interposed between said member and shell to form a backing for the shell, all of said parts being permanently connected together, substantially as described.

pleted article therefrom; substantially as de- 7. In a machine of the character described,

3. In a machine of the character described,

conforming to the shape of the article,

a member surrounding said shell and spaced away` therefrom, a strand of, wire wrapped that-surrounds the shell; substantially as described. n

9. In a machine of the'character described, a movable member provided with dies or molds, means for forming articles from liquid pulp fiber in said dies, means for moving sai( lnember, pick-up devices, means for ejecting the articles from the dies and onto said pick-up devices, and automatically operated mechanical means for stripping the articles from said pick-up devices; substantially as d escribed,

10, In a machine of the character described, a member provided with sets of hollow dies, means for automatically introducing charges of pulp water into said dies, means for' forcing thewater out of the dies to compact the pulp fibers upon the `inner faces of the dies to form articles, means for moving said die-carrying member, pick-up devices conforming to the shape' of the articles,

means for blowing the articles out o f the dies and onto said pick-up devices, and mechane ical means for thereafter engaging the articles and stripping them from said pick-up devices; substantially as described.

1 1. In a machine of the character de` scribed, a receptacle for holding pulp water, a member provided with sets of dies adapted to receive a charge of pulp water from said receptacle, means for forcing. the water out of the pulp fibers and compacting them together upon the inner faces of the dies, means for movingthe die-carrying member to bring an empty set of dies into alinement with the pulp .Water receptacle, and meansfor ejecting thefinished articles from the dies in which they were formed; substantially as described.

12. In a machine of the character described, a turret provided with a plurality of sets of dies, automatic means for supplying said dies with charges of liquid pulp fiber,

means for compacting the fibers together to form articles, pick-up devices located adjacent said turret, means for rotating the tur ret to bring the dies into alinement with said pick-up devices, means for ejecting the ar- `ticles from the dies and onto said. pick-up devices, and means for separating the comstantially as described.

13. In a machine of the character .described, a rotatable turret provided with sets of dies rigidly mounted thereon and provided with openings, a movable receptaclelocated adjacent said turret and having one end open, guides stationary with respect to the turret and having said receptacle movably mounted therein, means for moving the open end of said receptacle into engagement with the pick-un devices; sub

turret when one set of dies comes into alinement with the receptacle, means for introducing a charge lofliquid 'pulp'fiber into said receptacle so that it. canflow into said dies, and means for forcing the liquid through the openin s inv said dies 4so las to compact thev fibers c osely together upontheinner faces of the dies; substantiallyas described.

y 14. In a machine of the character described, y`a turret provided with sets of hollow perforated dies, a receptacle located-adjacent said'turret and having'l oneend open, said receptacle being mounted in stationary guides, mechanism for moving said receptacle into engagement with said turret for a predetermined length of time and thereafter out of engagement with said turret, means for introducing a supply of pulp water into said receptacle while it is in engagement with said turret so that'said pulp water can fiow' into said dies, means for forcing the water through the openings in the dies to compact the pulp fibers upon theinner faces of same, and means for thereafter rotating the turret away from said receptacle; substantially as described.,

15. In a machine ofthe character de-A scribed, a receptacle for holding pulp water, a conduitfor conducting pulp water to said receptacle, and means under control of the .operator for varying the consistency of the perforated dies and adapted to close the lower end of said receptacle, a pistonvmounted in said receptacle and provided with plungers, means for forcing said piston downwardly to cause the plungers to project into `the .dies and displace the liquid from the pulp fiber, and means for moving said member to carry the dies away from said receptacle; substantially as described. v

17. In a machine of the character described, a set of hollow perforated dies adapted to receive a charge of pulp water, a

.member provided with plungers that conform to the shape of said dies, means for moving said member to ycarry the plungers into said dies to force the major portion of the pulp water out of the pulp fibers, means for locking said member in its depressed posi.- tion, and means for thereafter introducing air or steam above 'the surface of the pulp water to complete the operation of compacting the fibers together upon the inner faces of the dies, substantially as described.

18,l lIn a machine of the character described, a receptacle adapted to receive pulp water, a member provided with hollow dies and ad aptedtok close the lower end of said receptacle, a piston mounted in said receptacle and provided with plungers, a cylinder provided with a piston which is connected to the plunger-carrying piston, means for introducing a motive Huid into saidcylinder to actuate the piston therein, and means 'for conducting the motive fluid from said cylinder to the underneath side of the plunger-carrying piston; substantially as described.-

19. In a machine of the character described, a receptacle adapted to hold pulp' water, a member closing the lower end of said receptacle and provided with hollow dies, a piston mounted in said receptacle, plungers connected to said piston, a cylinder provided with a piston which is connected to the plunger-carrying piston, means for introducing a motive Huid into said cylinder, means for establishing communication between said cylinder and the underneath side ofv the plunger-carrying piston, and automatically operated means for controlling the passage of the motive l'luid from the cylinder v to the underneath side of the plunger-carryout of the pulp ber and compacting the fibers upon the inner faces of the dies, a drain basin for each set of dies, and a discharge conduit provided with openings with which the drain basins of the dies aline as the turret rotates; substantially as described.

22. In a machine of the character described, a receptacle having its lower end open, a turret provided with sets of dies adapted to close the lower end of said receptacle, automatically operated means for introducing charges of pulp water into said receptacle, means for rotating the turret to carry the dies away from said receptacle, and means for locking the turret; substantially as described.

23. In a machine of the character described, a receptacle for holding liquid pulp ber, a hollow die closing one end of said receptacle and provided with openings, a piston operating in said receptacle and provided with a plunger for displacing the major portion of the liquid throu h the openings in said die, and means for b owing the remaining portion of the liquid through the openings in the die to compact the pulp fibers closely together; substantially as described.

24. ln a machine of the character den a machine of the character described, a receptacle for holding liquid pulp fiber, a hollow die closing one end of said receptacle and provided with openings, a piston mounted in said receptacle and provided with a plunger which displaces some of the liquid through the openings in the die as the piston moves downwardly, means for actuating said piston, and means operating after the piston has reached a certain position for introducing steam above the charge in said receptacle to complete the operation of displacing the liquid and compacting the pulp iibers closely together upon the face of the die; substantially as described.

25. In a machine of the -character described, a receptacle for holding liquid pulp iber, a piston operating in said receptacle and provided with an opening through which ports lead to the underneath side of the piston, a cylinder provided with a piston, a hollow piston rod connecting said pistons together, a port in said rod above the piston in the cylinder, and a valve for controlling the ports in the opening of the receptacle piston; substantially as described.

26. In a machine of the character de- Cil scribed, a receptacle for holding liquid pulp V liber, a piston operating in said receptacle and provided with an opening from which ports lead to the underneath side of the piston, a cylinder provided with a piston, means for establishing communication between the cylinder and the opening in the receptacle' piston, a valve for controlling the ports in the receptacle piston, a locking device for said valve, and` means whereby said locking device releases the valve when the piston reaches a certain position; substantially as described.I

27. In a machine of the character described, a receptacle for holding liquid pulp fiber, a piston operating in said receptacle and provided with an opening from which ports lead to the underneath side of the piston, a cylinder provided with a piston, means for establishing communication between the cylinder and the opening in the receptacle piston, a valve for controlling the ports in the receptacle piston, a locking device for said valve, means whereby said locking device releases the valve when the piston reaches a certain position, and means for restoring the valve to normal position; substantially as described.

28. In a machine of the character described, a receptacle for holding liquid pulp fiber, a iston mounted in said receptacle and provided with a bore from which ports lead to the underneath side of the piston, a

tubular-shaped valve mounted in said bore and provided with exhaust ports, a cylinder provlded with a piston, a piston rod connectlng said pistons together and having a passageway that establishes communication between the 'cylinderand the interior of the tubular-shaped valve, a locking device for said valve, and means whereby the valve is released fronisaid li'icliin'g device so thatI the Aforceyof the inoiilii. fluid lcan move the valve into positionto permit the escap'ement of the motive Huid to the underneath side of the receptacle fp'iston; substantially as described. f

'29. In a machine of the characterdes'cribed, areceptacle for holding liquid lpulp fiber, a piston mounted in said receptacle and provided with a straight, horizontally disposed bore having discharge ports, a tube reciprocatingly mounted in said bore and having one of its ends closed, said tube belng provided with discharge ports, a cylinder providedivith a piston, means for connecting said pistons together, means for conducting scribed.

the motive fluid from the cylinder tothe int'erior of said tube, and means for permitting the motive fluid to escape from said ktube when the istonreaches a certain position; substantially as described.

30. In' a machine of the character de-v scribed, ar receptacle for holding liquid pulp fiber, ya piston mounted in said receptacle and provided with a straight horizontally disposed bore having discharge ports, a tube reciprocatingly mounted-in said bore and having one of'its ends closed, said tube being provided with discharge ports, a cylinder provided with a piston, means for connecting said pistonsk together, means for conducting the motive fluid from the cylinder to the interior of said tube, a device carried by the vstationary part of the machine for engaging said tube to hold it in such a position that the motive fluid cannot escape therefrom un-l til the piston reaches a certain position, and a stationary member adapted to engage an inclined face on the tube to move it and thus cut ofi' the motive fluid as the ,piston is returning to normal position; substantiallyl as de- 31. Inl a machine of the character described, a receptacle for holding liquidpulp fiber, a piston 'for displacing the contents of said receptacle, means for actuating said piston, means for locking said piston when it -has reached a certain position, and means -for introducing a motive fluid upon the underneath side of said piston to complete the operation of displacing the contents of the,

4turn to norinal position; substantially as described.

In "a machine lof the character described, a receptacle for holding liquid pulp fiber, a piston for displacing the contents of said receptacle, means for actuating said piston, adjustable means for locking the piston afterl it 'has reached a certain position, automatically operated means rfor releasing the locking means to `permit the piston to return to normal position; substantially as described. y

34. In a machine ofv the character described, a receptacle for holding liquid )ulp fiber, a piston operating in said receptacle to displace the major portion of the contents thereof, means Ifor actuating said piston, means for introducing a motive fluid into said receptacle to complete the operation of displacing the contents thereof, a device connected to said piston, a spring-actuated latch for engaging said device whenthe iston has reacheda certain position to locr it, and means for moving said' latch out of yengage- .ment with said device to permit the piston to return to normal position; substantially as described.

35'. In a machine of the character de-- scribed, a receptacle for holding liquid ulp fiber, a piston operating in said receptacle to dis lace the contents thereof, a cylinder provi ed with a piston, means for connecting said pistons together, ports in the Walls of said cylinder for admitting the motive fluid to both sides of the piston therein, a valve for controlling said ports, automatically operated means for actuating said valve, and independent means for actuating said valve to close both of said ports simultaneously and permit the motive fluid to expand and thus complete the movement of the piston; substantially as described.

36. In a machine of the character described, a receptacle for holding liquid pulp fiber, a piston for displacing the contents of said receptacle, a cy nder having a piston mounted therein, means for connecting said pistons together, a valve for controlling the admission and exhaust of the motive fluid to said cylinder, means for actuating said valves to admit the motive fluid to one side of the piston in the cylinder to move it in one direction, a lever for engaging the stem of said valve, and means carried by the receptacle piston for actuating said lever to move the valve into position to cut off the admission andexhaust of the motive fluid'in the cylinder; substantially as described.

` 37. In a machine of the character described, a die, means `for forming an article out of liquid )ulp fiber in said die, a frame carrying a pic -up device, means for recipro-4 cating said pick-up device relatively to the frame to carry it into the die to receive the article and thereafter out of the die, and 

